Antimicrobial Textiles: Innovations, Challenges and Applications for Health and Hygiene

Antimicrobial textiles have emerged as a key innovation in improving hygiene, health protection, and safety across various sectors, including healthcare, personal hygiene, food packaging, and industrial applications. These textiles are treated with antimicrobial agents, such as silver nanoparticles (AgNPs), copper compounds, zinc oxide (ZnO), quaternary ammonium compounds (QACs), and chitosan, to prevent microbial growth and enhance the durability of fabrics. Among these, silver and copper demonstrate broad-spectrum efficacy against bacteria, fungi, and viruses, while zinc oxide and QACs are particularly effective against bacterial contamination. Chitosan, a natural antimicrobial agent, offers biocompatibility and biodegradability, making it an attractive sustainable option. While antimicrobial textiles offer significant benefits, challenges remain in ensuring long-term efficacy, environmental safety, and affordability. One major concern is the degradation of antimicrobial properties after repeated washing or wear, which compromises their effectiveness. Also, regulatory inconsistencies and the lack of standardized testing protocols further complicate the widespread adoption of antimicrobial textiles. Ensuring compliance with global safety standards, such as those set by the EPA (Environmental Protection Agency), FDA (Food and Drug Administration), and ISO (International Organization for Standardization), is crucial for their safe and effective implementation. To address these challenges, ongoing research is focused on developing sustainable, biocompatible alternatives, such as plant-based and bio-based antimicrobial agents, including essential oils and peptides, as well as enhancing the durability of treatments through controlled-release technologies. Moreover, the integration of multifunctional properties, such as UV protection and water resistance, into antimicrobial textiles offers exciting future possibilities. The continued development of standardized testing methods and global regulatory frameworks will facilitate the safe and efficient use of antimicrobial textiles. Overall, these innovations are expected to play a critical role in promoting public health, safety and sustainability across industries.